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    • 2. 发明授权
    • Optical pickup apparatus
    • 光拾取装置
    • US08087037B2
    • 2011-12-27
    • US13036739
    • 2011-02-28
    • Ryoichi KawasakiHiroyuki Shindo
    • Ryoichi KawasakiHiroyuki Shindo
    • G11B7/085G11B7/09G11B7/135
    • G11B7/1374G11B7/0956G11B7/121G11B2007/0006
    • An optical-pickup apparatus includes first and second objective lenses that focus first and second laser light on information-recording layers of first and second optical discs, the second optical disc having an information-recording format different from that of the first optical disc; and a lens holder that integrally holds the first and second objective lenses in an adjacent manner, a disc surface of the first optical disc and of the second optical disc being substantially parallel to confronting faces of the first and second objective lenses, that confront the disc surface, a minimum distance between the disc surface and the confronting faces in a direction of an optical axis of the turntable being greater than a thickness of the turntable in a direction of a rotation axis of the turntable, either one or both of the first and second objective lenses configured to focus bluish-violet laser light on an optical disc.
    • 光拾取装置包括将第一和第二激光聚焦在第一和第二光盘的信息记录层上的第一和第二物镜,第二光盘具有不同于第一光盘的信息记录格式; 以及以相邻的方式整体地保持所述第一和第二物镜的透镜保持架,所述第一光盘和所述第二光盘的盘表面基本上平行于所述第一和第二物镜的面对的所述盘, 在转台的光轴方向上的盘表面与面对面之间的最小距离大于转台的旋转轴的方向上的厚度,第一和第二 第二物镜被配置为将蓝紫色激光聚焦在光盘上。
    • 4. 发明申请
    • LENS DRIVING APPARATUS AND OPTICAL PICKUP UNIT HAVING THE SAME
    • US20070223320A1
    • 2007-09-27
    • US11683839
    • 2007-03-08
    • Ryoichi KawasakiHiroyuki Shindo
    • Ryoichi KawasakiHiroyuki Shindo
    • G11B11/00
    • G11B7/13925G02B7/08
    • A lens driving apparatus comprising: a first lens-barrel having a lens built thereinto; a second lens-barrel; an electromechanical conversion element that applies a driving force f1 to the first lens-barrel and a driving force f2 to the second lens-barrel; and a housing that supports the lateral surfaces of the first lens-barrel and the second lens-barrel such that a lens-barrel body is mounted slidably on the housing in the light axis direction of the lens, the lens barrel body being the first lens-barrel and the second lens-barrel connected via the electromechanical conversion element therebetween, wherein the electromechanical conversion element generates deformation which results in displacement in the light axis direction of the lens by applying a drive voltage, and wherein the first lens-barrel generates an inertia force IF1 and a friction force FF1 with the support surface of the housing by applying the driving force f1, and wherein the second lens-barrel generates an inertia force IF2 and a friction force FF2 with the support surface of the housing by applying the driving force f2, and wherein the lens-barrel body is driven to one side in the light axis direction of the lens, such that a relationship of f1 IF2+FF2 holds, when the electromechanical conversion element generates the deformation so as to increase an interval between the first lens-barrel and the second lens-barrel, and such that a relationship of f1>IF1+FF1 as well as f2 IF1+FF1 as well as f2 IF2+FF2 holds, when the electromechanical conversion element generates the deformation so as to reduce an interval between the first lens-barrel and the second lens-barrel.
    • 5. 发明授权
    • Optical pickup apparatus
    • 光拾取装置
    • US08363533B2
    • 2013-01-29
    • US13416858
    • 2012-03-09
    • Tohru HottaRyoichi KawasakiKenji KanHiroyuki Shindo
    • Tohru HottaRyoichi KawasakiKenji KanHiroyuki Shindo
    • G11B7/00G02B1/10
    • G11B7/1374G11B7/139
    • An optical pickup apparatus includes an objective lens having a numeric aperture and an incident face. An antireflection coating is formed on the incident face. A collimating lens converts laser light from a laser diode into parallel light, and causes the parallel light to be made incident on the incident face through the antireflection coating. The thickness of the antireflection coating causes a transmittance of laser light that enters the objective lens to be: set at a first predetermined transmittance value, when the numeric aperture is between zero and a first predetermined numeric aperture value; set to correlate linearly with the numeric aperture when the numeric aperture is between the first predetermined numeric aperture value and a second predetermined numeric aperture value; and set at a second predetermined transmittance value, when the numeric aperture is between the second predetermined numeric aperture value and a third predetermined numeric aperture value.
    • 光学拾取装置包括具有数字孔径和入射面的物镜。 在入射面上形成防反射涂层。 准直透镜将来自激光二极管的激光转换为平行光,并使平行光通过抗反射涂层入射到入射面上。 当数值孔径在零和第一预定数值孔径值之间时,防反射涂层的厚度使进入物镜的激光的透射率设定为第一预定透射率值; 当数值孔径在第一预定数值孔径值和第二预定数值孔径值之间时,被设置为与数字孔径线性相关; 并且当所述数值孔径在所述第二预定数值孔径值和第三预定数值孔径值之间时,设定在第二预定透射率值。
    • 6. 发明申请
    • OPTICAL PICKUP APPARATUS
    • US20120170441A1
    • 2012-07-05
    • US13416858
    • 2012-03-09
    • Tohru HottaRyoichi KawasakiKenji KanHiroyuki Shindo
    • Tohru HottaRyoichi KawasakiKenji KanHiroyuki Shindo
    • G11B7/1376G11B7/1374
    • G11B7/1374G11B7/139
    • An optical pickup apparatus includes an objective lens having a numeric aperture and an incident face. An antireflection coating is formed on the incident face. A collimating lens converts laser light from a laser diode into parallel light, and causes the parallel light to be made incident on the incident face through the antireflection coating. The thickness of the antireflection coating causes a transmittance of laser light that enters the objective lens to be: set at a first predetermined transmittance value, when the numeric aperture is between zero and a first predetermined numeric aperture value; set to correlate linearly with the numeric aperture when the numeric aperture is between the first predetermined numeric aperture value and a second predetermined numeric aperture value; and set at a second predetermined transmittance value, when the numeric aperture is between the second predetermined numeric aperture value and a third predetermined numeric aperture value.
    • 光学拾取装置包括具有数字孔径和入射面的物镜。 在入射面上形成防反射涂层。 准直透镜将来自激光二极管的激光转换为平行光,并使平行光通过抗反射涂层入射到入射面上。 当数值孔径在零和第一预定数值孔径值之间时,防反射涂层的厚度使进入物镜的激光的透射率设定为第一预定透射率值; 当数值孔径在第一预定数值孔径值和第二预定数值孔径值之间时,被设置为与数字孔径线性相关; 并且当所述数值孔径在所述第二预定数值孔径值和第三预定数值孔径值之间时,设定在第二预定透射率值。
    • 9. 发明申请
    • OBJECTIVE LENS AND METHOD OF MANUFACTURING OPTICAL PICKUP APPARATUS
    • 目标镜头和制造光学拾取装置的方法
    • US20070280058A1
    • 2007-12-06
    • US11750711
    • 2007-05-18
    • Ryoichi KawasakiHiroyuki Shindo
    • Ryoichi KawasakiHiroyuki Shindo
    • G11B7/00
    • G11B7/22G11B7/1374G11B2007/0006
    • An objective lens focusing light emitted from a light source onto an information surface of an optical disk, comprising: a first lens surface to be positioned on the light-source side; a second lens surface to be positioned on the optical-disc side; a first edge surface to be positioned on the light-source side, provided in an outer region of the first lens surface; and a second edge surface to be positioned on the optical-disc side, provided in an outer region of the second lens surface, a first optical axis of the first lens surface coinciding with a second optical axis of the second lens surface, the first optical axis and the second optical axis being orthogonal to the second edge surface.
    • 将从光源发射的光聚焦到光盘的信息表面上的物镜,包括:位于光源侧的第一透镜表面; 位于光盘侧的第二透镜表面; 位于所述光源侧的第一边缘表面,设置在所述第一透镜表面的外部区域中; 以及设置在所述第二透镜表面的外部区域中的位于所述光盘侧的第二边缘表面,所述第一透镜表面的第一光轴与所述第二透镜表面的第二光轴重合,所述第一光学 并且所述第二光轴正交于所述第二边缘表面。
    • 10. 发明申请
    • OPTICAL PICK APPARATUS
    • OPTICAL PICKUP APPARATUS
    • US20070263297A1
    • 2007-11-15
    • US11626779
    • 2007-01-24
    • Ryoichi KawasakiHiroyuki Shindo
    • Ryoichi KawasakiHiroyuki Shindo
    • G02B3/02
    • G11B7/1374G11B7/0956G11B7/121G11B2007/0006
    • An optical pickup apparatus comprising a first objective lens that focuses first laser light on an information recording layer of a first optical disc in a first mounting state where the first optical disc is mounted on a turntable; a second objective lens that focuses second laser light on an information recording layer of a second optical disc in a second mounting state where the second optical disc is mounted on the turntable, the second optical disc having an information recording format different from that of the first optical disc; and a lens holder that integrally holds the first objective lens and the second objective lens in an adjacent manner on the outside and inside, respectively, along a radial direction of the first optical disc in the first mounting state and of the second optical disc in the second mounting state, the lens holder being shiftable along the radial direction, a disc surface of the first optical disc in the first mounting state and of the second optical disc in the second mounting state being substantially parallel to a confronting face of the first objective lens and of the second objection lens, that confronts the disc surface, a minimum distance bet ween the disc surface and the confronting face in a direction of a rotation axis of the turntable being greater than a thickness of the turntable in a direction of a rotation axis thereof.
    • 一种光拾取装置,包括:第一物镜,其在第一安装状态下将第一激光聚焦在第一光盘的信息记录层上,其中第一光盘安装在转盘上; 第二物镜,其在第二安装状态下将第二激光聚焦在第二光盘的信息记录层上,其中第二光盘安装在转盘上,第二光盘具有不同于第一光盘的信息记录格式 光盘; 以及透镜保持件,其在第一安装状态下沿着第一光盘的径向分别在外侧和内侧相邻地一体地保持第一物镜和第二物镜;以及第二光盘中的第二光盘 第二安装状态,透镜架可沿径向方向移动,处于第一安装状态的第一光盘的盘表面和处于第二安装状态的第二光盘的盘表面基本上平行于第一物镜的相对面 以及面对盘表面的第二异物透镜,在转盘的旋转轴的方向上的盘表面和面对面的最小距离大于转盘在旋转轴方向上的厚度 其中。